Method and apparatus for processing sheet material

ABSTRACT

The invention relates to a method and apparatus for processing sheet material, in particular bank notes, having a singling device for singling bank notes, a sensor path for testing at least one property of the singled bank notes and a deposit device having at least one output pocket for bank notes which have traversed the sensor path.  
     Since the singling of bank notes is effected from a plurality of singlers in controlled order, efficient bank note processing can be performed.

[0001] This invention relates to a method and apparatus for processing sheet material, in particular bank notes, having a singling device for singling sheet material, a sensor path for testing at least one property of the singled sheet material and a deposit device having at least one output pocket for sheets of sheet material which have traversed the sensor path.

[0002] A method and apparatus of the abovementioned type is known for example from DE 198 10 928 A1. Bank notes are usually inputted into an input pocket by hand, singled, tested and deposited in an associated output pocket of the deposit device in accordance with the test result. However, it is frequently necessary to readjust the singler in accordance with the type of bank note to be subsequently singled since the optimal singler adjustments are different for bank notes e.g. of different quality. This necessity of readjustment involves an expenditure of time which is undesirable in terms of an optimized throughput in bank note processing.

[0003] The invention is therefore based on the problem of proposing a method and apparatus for processing sheet material, in particular bank notes, that ensures a high throughput in particular when bank notes of different quality, different formats or different currencies are to be singled or processed.

[0004] This problem is solved according to the invention by an apparatus with the features of claim 1 and a method with the steps of claim 10. The further claims describe advantageous embodiments.

[0005] The invention is thus based on the finding that more efficient bank note processing with a higher throughput can be performed by singling sheet material, such as bank notes, from a plurality of singlers in controlled order.

[0006] For example, if the singlers are constructed differently, one singler module can be equipped and preadjusted for bank notes of good quality and one for bank notes of poor quality. An inexpensive friction wheel singler for singling good-quality bank notes and a suction singler for poor-quality bank notes can e.g. be coupled. Alternatively, some of the singler modules can e.g. be designed for automatic singling from boxes and others for inputting bundles of bank notes by hand.

[0007] In all these cases, no readjustment of the singler is thus necessary for different types of bank notes to be singled, or conversion upon a change from manual input to box singling or to singling of strapped bank notes. Moreover, bank notes can already be inputted into one singler during singling from another of the singlers.

[0008] In a preferred embodiment, the bank notes from a plurality of, particularly preferably from all, singler modules will traverse a common sensor path. This case has the further advantage that the in itself very expensive sensor path can be used to capacity virtually without a gap, for example by supplying the bank notes to the sensor path in a continuous stream from the singler modules in controlled fashion one after the other or else interlaced. Interlaced supply is understood to mean e.g. that a second singler selectively inserts bank notes into the singling gaps of the first singler. This can compensate for disturbances in one singler.

[0009] For example in case substantially no singler gaps occur, however, a plurality of singlers can also be connected in parallel so that when the first singler has run empty the second singler is switched to.

[0010] In addition, all or at least some of the singlers can also traverse their own, separate sensor paths. This has the advantage that the sensors of the sensor path can also be adjusted optimally to the type of bank note to be singled in the associated singler.

[0011] Moreover, a singler can further be connected with the output of the sensor path by means of a recirculating transport system, so that bank notes which have for some reason been identified by the sensor path, e.g. qualified as unfit for circulation, traverse said path again.

[0012] The singlers can optionally be connected with output pockets common to all singlers, but it is of course also possible to associate certain singlers with certain output pockets. This association can be effected either by the mechanical construction of the transport apparatus from the singler to the output pockets or alternatively by selective control of the sheet supply to the different output pockets.

[0013] The former case with common output pockets is advantageous e.g. when bank notes of a deposit, i.e. from a money deposit operation with a plurality of bank notes, are inputted distributed over the different singlers for further processing in order to be subsequently singled without a gap. The latter case with separate output pockets is ex-expedient when different deposits are processed simultaneously and there is no desire to bring together the processed bank notes outputted according to certain criteria.

[0014] For connecting the singlers with the apparatus one can fundamentally use any known possibility. The bank notes can be placed directly in input pockets of the singlers which are inserted into the machine, but it is also possible to connect the singlers with the apparatus or the sensor path via separate transport paths.

[0015] In the following an example of the invention will be described by way of example with reference to the enclosed drawing, in which:

[0016]FIG. 1 shows a schematic flowchart of an embodiment of the invention, and

[0017]FIG. 2 shows the coupling of two different singlers.

[0018] The inventive apparatus according to FIG. 1 comprises three different singlers VE1, VE2 and VE3. Said singlers preferably have different constructions. VE1 is for example a singler for receiving boxes with bank notes to be singled or for receiving strapped bundles of bank notes which are then automatically de-strapped before singling. VE2 is for example a comparatively inexpensive friction wheel singler for singling good-quality bank notes, and VE3 is for example a suction wheel or suction belt singler for poor-quality bank notes. Said three singlers are connected via transport paths 10, 12, 14, each associated with the singlers, with main transport path 16 leading through sensor path SE. In sensor path SE a plurality of, for example ten, different sensors are disposed for measuring the particular required properties of bank notes. After traversing sensor path SE the bank notes are selected to output pockets AB1, AB2 or AB3 depending on their state. The output pockets can be charged simultaneously from all singlers, but the control can of course also be effected such that individual singlers, for example singler VE1, always deposits only in output pocket AB1. When bank notes are classified as unfit for circulation or unsuitable for some other reason, they are ejected and deposited in output pocket AB4 after traversing the sensor path. It is possible to return said bank notes to singler VE3 via recirculating transport system 18 so that said bank notes traverse the sensor path again. Only if they are ejected again the bank notes are then reworked by hand.

[0019] It is obvious that the shown apparatus permits troublefree singling of very different bank notes. The bank notes from singlers VE1, VE2 and VE3 connected in parallel can be supplied to the sensor path interlaced with each other. It is of course also possi-also possible to first work off singler VE1 and only then connect singler VE2. The corresponding control is not shown in the flowchart. Singlers VE1, VE2, VE3 preferably have different constructions and are each optimized for a certain bank note quality.

[0020] It is also possible, however, to use singlers of the same kind in order to obtain optimal utilization of the apparatus. In this case, bank notes can e.g. be added to one singler while another singler is active and singles bank notes.

[0021]FIG. 2 shows schematically the coupling of two such different singlers. Singler 20 works for example with boxes which are previously filled and inserted into singler 20. Singler 22 works with loose bank note stacks which are placed in the input pocket of singler 22 by hand. Via transport paths 24 the bank notes of both singlers 20, 22 reach sensor path SE of the bank note processing machine via an associated switch and are diverted into the output pockets after testing in accordance with the test result and predetermined sorting criteria.

[0022] All in all, by making a plurality of singlers available in parallel one obtains higher flexibility, avoids singling gaps that lead to losses of time, and eliminates time-consuming change-over measures. 

1. An apparatus for processing sheet material, in particular bank notes, having a singling device for singling sheet material, a sensor path (SE) for testing at least one property of the singled sheet material and a deposit device having at least one output pocket (AB1, AB2, AB3, AB4) for sheets of sheet material which have traversed the sensor path (SE), characterized in that the singling device includes a plurality of singling modules (VE1, VE2, VE3) from which sheet material can be singled.
 2. An apparatus according to claim 1, characterized by a control device which regulates the singling of sheet material from the different singlers (VE1, VE2, VE3) in a controlled order according to predetermined criteria.
 3. An apparatus according to claim 1 or 2, characterized in that a plurality of singling modules (VE1, VE2, VE3) are connected with a common sensor path.
 4. An apparatus according to claim 3, characterized by a control device for making sheet material from the plurality of singlers traverse the common sensor path in interlaced order.
 5. An apparatus according to any of the above claims, characterized in that a plurality of singling modules are each connected with separate sensor paths.
 6. An apparatus according to any of the above claims, characterized in that a plurality of singling modules are each connected with at least one common output pocket or with separate output pockets.
 7. An apparatus according to any of the above claims, characterized in that at least some of the singling modules (VE1, VE2, VE3) are constructed differently from each other for processing different sheet material and/or sheet material supplied in different ways.
 8. An apparatus according to claim 7, characterized in that the singling modules (VE1, VE2, VE3) are singlers for receiving boxes and/or for receiving loose or bundles of sheet material and/or friction singlers and/or suction singlers.
 9. An apparatus according to any of the above claims, characterized in that a singling module (VE3) is connected with the output of the sensor path (SE) via a recirculating transport system (18).
 10. A method for processing sheet material, in particular bank notes, which are first singled, then transported through a sensor path (SE) for testing at least one property of the singled sheet material and finally deposited, characterized in that the singling of sheet material is effected from a plurality of singlers (VE1, VE2, VE3).
 11. A method according to claim 10, characterized in that the singling of sheet material from different singlers (VE1, VE2, VE3) is effected in a controlled order according to predetermined criteria.
 12. A method according to claim 11, characterized in that the sheet material from a plurality of singlers (VE1, VE2, VE3) traverses a common sensor path (SE).
 13. A method according to claim 10 or 11, characterized in that the sheet material from a plurality of singlers (VE1, VE2, VE3) traverses the common sensor path (SE) in interlaced order.
 14. A method according to any of claims 10 to 13, characterized in that the sheet material from a plurality of singlers traverses a separate sensor path in each case.
 15. A method according to any of claims 10 to 14, characterized in that tested sheet material from a plurality of singlers is deposited in at least one common output pocket.
 16. A method according to any of claims 10 to 15, characterized in that tested sheet material from a plurality of singlers is deposited in at least one separate output pocket in each case. 